Emulsion Breaker

Introducing DEW Emulsion Breakers: Unlocking Efficiency in Oil Production

In oil production, the coexistence of water with oil in reservoirs often leads to the formation of oil/water emulsions. These emulsions, stabilized by native or added surfactants, as well as solid particles like iron sulfide, asphaltenes, paraffins, clays, and silts, pose challenges during extraction due to their stability and resistance to separation.

DEW emulsion breakers are specifically engineered to address these challenges, resolving emulsions formed during the extraction and production of crude oil. Our demulsifiers ensure rapid and sharp separation, delivering substantially anhydrous crude petroleum at minimal cost to operators. With DEW, operators achieve exceptionally fast oil-water separations, treating virtually all types of emulsions encountered in oil production.

Key Advantages of DEW Emulsion Breakers:

  • Rapid, Sharp Separation: DEW demulsifiers facilitate swift separation of oil and water phases, enhancing operational efficiency.
  • Environmentally Friendly: Our emulsion breakers contain no heavy metals or organic halides, ensuring environmental compatibility.
  • Versatility: DEW products are capable of treating a wide range of emulsions, offering versatile solutions for diverse production scenarios.
  • Easy Handling: Convenient to handle and easily dispersed, DEW emulsion breakers simplify the treatment process, streamlining operations.
  • Tailored Formulation: Formulated with a careful balance of active substances, including non-ionic and ionic surfactants, DEW demulsifiers are designed specifically for each oilfield, ensuring optimal performance and compatibility with production parameters.
  • Enhanced Efficiency: DEW’s exclusive chemicals for asphaltenes and paraffins treatments provide highly efficient solutions for controlling hard-to-break emulsions generated by paraffinic or asphaltenic crudes.


In addition to resolving emulsions, DEW continues to innovate, focusing on production enhancement through downhole viscosity reduction and improved separation of heavy crude emulsions. Our ongoing research and development efforts aim to address evolving industry challenges and deliver cutting-edge solutions for oil and gas production.